CS225146B2 - The device carrying the conductors with the carrying elements in the frame for the single-phase heavy-current bus bars - Google Patents

Abstract

The invention refers to a conductor support assembly in the enclosure of high-current bus bar of high-power generator connections applicable in any of the enclosure connection systems, for example: continuous, non-continuous or with chokes. The above assembly consists of a conductor 1 placed within a ring shaped sleeve 2, durably fixed to the supporting insulators 3 fastened to the enclosure 4 or its part, freedom of an axial sliding of the conductor 1 in the sleeve 2 being maintained. To achieve the optimum construction one supporting insulator 3 shall be located in vertical axis 5 of lower part of the enclosure 4, whereas the other one in the horizontal axis 6 of the enclosure 4.

Description

BACKGROUND OF THE INVENTION The present invention relates to a device for carrying conductors in a high-current connection box of a power generator connection, applicable in any casing connection system, for example continuous, discontinuous or s-chokes.

The invention consists of a conductor housed in a circular housing which is permanently fixed to support insulators resembling the housing or a part thereof, while maintaining the freedom of axial movement of the conductor within the housing. For optimum construction, one insulator support will be located in the veethical axis of the load case, while the other in the horizontal axis of the housing.

Fig.1

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device carrying conductors of disposable high-power buses using members disposed in shielding housings of high-power disposable buses used to connect generators in which housing connection systems have been freely used; continuous, discontinuous or with chokes.

It is well known from French Patent No. 1,306,118 to design bus fasteners in disposable heavy current buses.

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In general, this construction consists of fastening the working busbars to the insulators articulated to the housing in its vertical axis with two additional insulators in the form of a damping spring located in the housing. the horizontal axis of the cabinet.

This construction has some disadvantages. It is necessary to look at two types of insulators:.

one carrier and two damping insulators connected to the electrode conductor at each carrier of the power bus. This construction is also difficult to transport because either the high-current bus is not protected against unwanted vertical movements that may damage the insulator, or the high-current bus needs to be transported to its destination without being attached to the supporting insulators.

Another disadvantage is that the anal movements of the high-current bus, caused by temperature changes, are individually transmitted by the individual insulators, so that it is necessary to use insulators. Relatively - large stirrer.

Another disadvantage is the increased epithelial consumption and increased labor costs during manufacturing, assembly and usage time due to the use of three insulators at each support point. Using three shells - at each carrier point of a given phase, it also carries an increased frequency of faults of a single-high current bus.

A further disadvantage of this arrangement then lies in the manufacturing and installation difficulties in the case of the vertical arrangement of the generator connections, which often occurs in the case of hydroelectric power stations.

Good. known as L Res ^ i ^ s described in the Polish patent application no. P-225917 αρ ^ ίν ^ Ι ^ in that the conductor is freely supported in the enclosure in the fastening point of two supporting insulators ^- Fold the iertl ^e alni axis angle 6 °° ^p tofržení s current condition that the unit weight of the conductor is greater than the unit vertical force which could act on the conductor in conditions of a short circuit.

This solution, although it increases the spodehliidst connection of the generators compared to the commonly used single-hand high-speed fastening assembly. bus to cabinet. via three or even four insulators at each attachment point, but also has some disadvantages.

This design is not possible with disposable busbars with triple-wardrobes or chokes, since in this case the magnitude of forces exerted on the bus during the two-phase and three-phase short-circuits exceeds the busbar's mass, thus causing the bus to fall out of the arrangement.

Another disadvantage is that the structure is where the connection of the generators is arranged vertically over a longer distance, for example at a power plant.

A further disadvantage is that all pressures and anal movements of the heavy current collector due to temperature changes are transmitted individually by the individual insulators. It is also disadvantageous that the supporting insulators with a vertical axis angle of 60 ° are. exposed to the stress of the quarry, caused by the HID bus.

It is an object of the present invention to eliminate the disadvantages of the known solutions and to develop the structure of the carrier devices of the long-current busbars under a series of newly developed connection with carrier insulators located in the shading housing of the current busbars using a reduced number of carrier insulators. In this way, this solution will provide material savings and increased reliability over the period of use, the design being adapted to the known system of cabinet connections.

This object has been achieved according to the invention such that the conductors of the encapsulated collectors are fixed in the shielding boxes at each support point by means of a sleeve connected to the load-bearing insulators, which is not preferably a ring-shaped form attached to the load-bearing insulators.

In this case, there is freedom of anal movement in this housing.

Každém <ηιζ ^ ί-11, two carrier insulators at each point of the current bus point, an optimum solution is achieved if one carrier insulator to which the housing is attached is arranged in a vertical axis at the bottom of the shield housing and another carrier insulator is placed in the horizontal axis. .

At said ^external c ^{h up phase} R, ^T an advantageous situation occurs when ^h OT'izont ^and adheres arranged supporting insulators are placed in the ^s shell outer part.

The positioning of this insulator - in the central phase is optional.

When connecting generators of the highest power, where peak high-current currents reach several hundred kilo-amps, it is preferable to mount a third, additional insulator in the central phase, and the insulator should also be positioned in the horizontal axis of the housing.

The introduction of the described technical measures makes it possible to achieve the advantageous effects of the invention, among which, for example, that the introduction of round bushings virtually eliminates the need for more than two carrier insulators to be used at each bus point.

A further advantage is that the power consumption of the generator connection decreases, since the attachment of the third insulator requires the use of additional plurality of openings produced by the arc welding method under argon atmosphere, and the additional insulator, usually in the form of an additional insulator. a shock absorber; or. other - damping devices.

Another advantage is that the housing connects the load-bearing insulators into a one-mechall.ckn system with a high odoonoot to mechanical forces. It is also advantageous that the MichellLC forces that occur due to dynamic action or axial-collecting movements are decomposed over the housing into two or three insulators.

Another advantage of the construction - according to the invention - is that the sine-current bus is always held centrally in the shielding box, i.e. in the vertical and horizontal connection plan of the generators. Even with the use of only two insulators, this solution does not find application in all three known - cabinet connection systems, i.e., discontinuous connection, choke connection and unrestricted connection in the system connection.

In addition, placing one insulator at the bottom of the shielding box causes the insulator to still be subjected to a thrust only by the current of the busbar, and the insulators, especially those made of epoxy resins, are very resistant to such force.

In the case of a two-phase or three-phase short circuit, the insulator, - located in the horizontal axis of the external phases H, T - also. it receives only dynamic compressive forces, since the force acts in its. axis. The insulator mounted in the central phase S is mounted in the central phase S and is subjected, in the case of dynamic forces, to the pressure forces of the cells, such as the phases R, T or the pulling force.

However, the connection of the insulator via the housing to the bottom insulator 8 results in the lower insulator carrying part of the reaction and being subjected to stress on the hem.

For the stringent dynamic requirements of the largest power generators of the order of 1000 magavatts, it is also advantageous to use an additional third insulator in the central phase. Then all phase insulators R, S, T located in the horizontal axes of the enclosures will be subjected to shortening forces only under short-circuit conditions.

In addition to the advantages already described, the circular housing has the further advantage of damping any off-center bus movements within the housing.

The object of the invention is shown in the drawings, wherein Fig. 1 is a cross-section of an encapsulated bus, while Fig. 2 shows a cross-section of a generator connection made up of three single-phase encapsulated heavy-current buses.

According to the invention, the device carrying the conductor by means of a casing connected to the support insulators in the shielding box of the disposable high-current busbars consists of a conductor 6 positioned inside the housing g preferably in the form of a ring and permanently attached to the support insulators g connected to the shielding housing 4 or its segments; £ has freedom of axial movement within the housing g. In the horizontally arranged connections of the generator, one of the support insulators g of a given support point of the conductor 5 located in the housing 2 is located in the vertical axis 4 of the lower part of the housing 4; of the housing axis 6.

In special cases, the third carrier insulator 2 is additionally fastened in the axis 6 of the central fusion g.

Claims (3)

A device carrying conductors with support elements in a frame for single-phase power buses, comprising in particular coaxial wires in the housing, support insulators fastened to the housing in a known manner, and support members, characterized in that the conductor (1) is located inside an annular bushing (2) permanently connected to the supporting insulators (3) attached to the housing (4) or part thereof, while maintaining the freedom of axial movement in the carriage (В in the housing (2)). Device carrying a conductor according to claim 1, characterized in that one support insulator (3) located in the vertical axis (5) of the lower part of the housing (4) and the longer support insulator (3) is located in the horizontal axis (6) wherein the second supporting insulator (3) is located on the opposite side in relation to the central phase in the outer phases R, T. Device carrying a conductor according to bpdu 2, characterized in that the third additional supporting insulator (7) is located in the shielding box (4) of the central phase S in the horizontal axis (6) of the housing (4).